Arun R. Srinivasa, CV, Page 1 of 15, 3/8/2013 Arun R. Srinivasa Texas A&M University Telephone: (979) 862-3999 Department of Mechanical Engineering Fax: (979) 862-3989 220 Engineering Physics Building E-mail: [email protected] College Station, TX 77843-3123 Citizenship: USA Current position:Professor Department of mechanical Engineering College of Engineering 2 years in current position 15 years at Texas A&M University Education: 1991 Ph. D. Mechanical Engineering, University of California, Berkeley Topic: “Some general results in crystallographic slip” Advisor: Prof. P. M. Naghdi 1986 B. Tech. Mechanical Engineering, Indian Institute of Technology, Madras Professional Experience: Fall 2010: Present: Professor, Department of Mechanical Engineering, Texas A&M University, College Station. Fall 2003-Fall 2009: Associate Professor, Department of Mechanical Engineering, Texas A&M University, College Station Fall 1997-Fall 2003: Assistant Professor, Department of Mechanical Engineering, Texas A&M University, College Station Fall 1993-Fall 1997: Assistant Professor, Department of Mechanical Engineering, University of Pittsburgh Fall 1994-Fall 1997: Associate Director, Center for Computational and Applied Mechanics, University of Pittsburgh Spring 1993: Instructor, Department of Mechanical Engineering, University of California, Berkeley 1991-1993: Post Doctoral Fellow, Department of Mechanical Engineering, University of California, Berkeley 1987-1991: Graduate Student Research Assistant (GSRA) Department of Mechanical Engineering, University of California, Berkeley Arun R. Srinivasa, CV, Page 2 of 15, 3/8/2013 1986-1990: Graduate Student Instructor, Department of Mechanical Engineering, University of California, Berkeley Research Interests: Persistent Structural Changes in Materials Plasticity of metals and polymers, structural response of shape memory materials thermomechanics of dissipative processes dislocation dynamics, molecular dynamics, adhesion of ultrafine and nanoscale particles and their effect on manufacturing technologies, cosserat continua, design and dynamics of active compliant mechanisms. Honors and Awards: 2012 Benjamin Dasher best paper award, Frontiers in Engineering Education Conference. 2011 William Keeler Faculty Fellowship, College of Engineering, Texas A&M University. 2011 Outstanding Graduate Teaching Award, Department of Mechanical Engineering, Texas A&M University. 2010 Halliburton Professorship, College of Engineering, Texas A&M University 2005 British Petroleum (BP) Award for Teaching Excellence, College of Engineering, Texas A&M University. 2003 Outstanding Graduate Teaching Award, Department of Mechanical Engineering, Texas A&M University. 1990 Outstanding Teaching Assistant Award, University of California, Berkeley. 1986-1989 Berkeley (Graduate) Fellowship, University of California, Berkeley. 1986 The Banco Foundation Gold Medal for highest GPA in Mechanical Engineering, Indian Institute of Technology, Madras. 1984 The Raghavendra Memorial Prize, for highest GPA in first two years in Mechanical Engineering, Indian Institute of Technology, Madras. Arun R. Srinivasa, CV, Page 3 of 15, 3/8/2013 Membership in professional and honorary societies : Member of American Society of Mechanical Engineers, Constitutive Equations Committee Member of American Society of Engineering Education. Editorship of Journals and editorial boards:  Editor-in-Chief, Int. J. Structural Changes in Solids: Mechanics and Applications, IJSCS.org, Texas Digital Library  Board of Editors, Int. J. Engineering Science, Elsevier Publications  Edited a special issue of the International Journal of Plasticity (Vol. 17, No. 8, 2000) on “the plasticity of non-simple materials” Book:  Arun R. Srinivasa and Srinivasan M. Sivakumar, Inelasticity of Materials: An Engineering Approach and Practical Guide, World Scientific Publishing Company, 2009. ISBN-10: 9812837493  Detailed development of a complete, comprehensive thermodynamic approach based on the hypothesis of maximum rate of dissipation, an area that I have been writing technical papers on for the past 15 years.  Many practically implementable MATLAB codes, including codes that modify existing MATLAB GUI based Elliptical equation PDE solvers to solve the nonlinear differential equations of plasticity.  Description of meshless methods based on moving least squares interpolation to solve plasticity problems.  Introduction of novel methods to develop constitutive equations for large deformation plasticity including applications to ageing phenomena in tissue.  Novel schemes for elastoplasticity of single crystals. Edited Volumes:  Srinivasan M. Sivakumar, Vidyashankar Buravalla, Arun. R. Srinivasa (eds.), Smart Devices: Modeling of Material Systems, American Institute of Physics. ISBN-10: 0735405530 Arun R. Srinivasa, CV, Page 4 of 15, 3/8/2013 Journal Publications1 (65 journal papers are in print) 1. Rao, A. , Srinivasa, A.R. , “A two species thermodynamic Preisach model for the torsional response of shape memory alloy wires and springs under superelastic conditions”, International Journal of Solids and Structures, 2012, (Accepted) 2. Jung S., Phares, D. J. and Srinivasa, A. R., “A model for tracking inertial particles in a lattice Boltzmann turbulent flow simulation”, Int. J. of Multiphase Flow, 49,107, 2012. 3. Doraiswamy S., Narayanan, K.R. and Srinivasa, A. R. “Finding minimum energy configurations for constrained beam buckling problems using the Viterbi algorithm”, Int. J. Solids and Structures, 49(2), 289-297. 2012 4. Ghosh, P., Rao, A., and Srinivasa, A. R. “Design of multi-state and smart-bias components using Shape Memory Alloy and Shape Memory Polymer composites”, Materials and Design, 44, 164-171, 2013 5. Narayanan, K. R. and Srinivasa, A. R. , “Shannon-entropy-based nonequilibrium “entropic” temperature of a general distribution”, Physical Review E, Vol 85(3), 2012. 6. Srinivasa A. R., On the use of the upper triangular (or QR) decomposition for developing constitutive equations for Green-elastic materials”, Int. J. Engng Science, 2012 60, 1-12, 2012 7. *Ghosh, P., and Srinivasa, A. R., “A two network thermodynamic model for a shape memory polymer” , Int. J. Engng. Sci., 49(9) 823-838, 2011 8. *Doraiswamy, S., *Rao, A. and Srinivasa A. R., “Combining Thermodynamic principles and Preisach Models for superelastic shape memory alloy wires”, Smart Materials and Structures, 20(8) 2011. 9. *Ganesh, N., *Maniprakash, S, Chandrasekaran, L., Sivakumar, S, Srinivasa A. R., Design and Development of a Sun Tracking Mechanism Using the Direct SMA Actuation, ASME Journal of Mechanical Design, 133(7) , 2011 10. Rajagopal K.R. and Srinivasa A.R. ,A Gibbs-potential-based formulation for obtaining the response functions for a class of viscoelastic materials, Proc. Roy. Soc. London, A 467( 2125) 39-58, 2011. 11. Srinivasa, A. R. Application of the maximum rate of dissipation criterion to dilatant, pressure dependent plasticity models, International Journal Of Engineering Science, 48(11), 1590-1603, 2010. 12. *Rao, P. V., *Maniprakash, M, Srinivasan S. M. , and Srinivasa, A. R., Functional behavior of isotropic magnetorheological gels, smart materials and structures, 19(8), 2010 13. Rajagopal, K. R. , and Srinivasa, A. R. , On a class of non-dissipative materials that are not hyperelastic, Proc. Roy. Soc. London, A 465(2012), 493-500 2009 14. Naryanan, K. R., and Srinivasa, A. R., “Using discrete optimization algorithms to find minimum energy configurations of slender cantilever 1 Papers with an asterisk in front are with students. Student names are in italics. Arun R. Srinivasa, CV, Page 5 of 15, 3/8/2013 beams with non-convex energy functions”, Mechanics Research Communications, 36(7), 811-817, 2009 15. Kaushik A., Karaman, I, and Srinivasa A. R. , “Simulation of Powder compation using equal channel angular extrusion at room temperature: Comparison of two constitutive theories”, Int. J. Structural Changes in solids, (IJSCS.org) Vol 1, (1) , 2009. 16. *Karra, S. and Srinivasa, A. R., “Simulation of the electrospinning process,” International Journal of Applied Mechanics and Engineering, 13(4),21-30 2008. 17. Rajagopal, K. R. and Srinivasa, A. R., “On the development of fluid models of the differential type with a new thermodynamic framework,” Mechanics Research Communications, 35(7), 483-489, 2008. 18. Rajagopal, K. R. and Srinivasa, A. R., “On thermodynamics of fluids defined by implicit constitutive relations,” Zeitschrift Fur Angewandte Mathematik und Physik (ZAMP), 59(4), 715-729, 2008. 19. *Gothikonda, V. S. R., Kranthikiran, M., Sivakumar, S. M., and Srinivasa, A. R., “On smeared and micromechanical approaches to 5odeling martensitic transformations in SMA,” Nonlinear Analysis Series B: Real World Applications, 9(3) 990-1011, 2008. 20. Rajagopal, K. R., Srinivasa, A. R., and Wineman, A. S., “On the shear and bending of a degrading polymer beam,” International Journal of Plasticity, 3(9) 1618-1636, 2007. 21. *Kaushik, A., Phares, D., and Srinivasa, A. R., “Dynamic effects in microparticle pulloff using an AFM,” Particulate Science and Technology, 25, 387-399, 2007. 22. *Pfaeffle, J. H., Fischer, K., Srinivasa, A. R., Manson, T., Woo, S., and Tomaino, M., “A model of stress and strain in the interosseus ligament of the forearm using a fiber network theory,” Journal of Biomechanical Engineering,Transactions of the ASME, 128(5), 725-732, 2006. 23. Rajagopal, K. R. and Srinivasa, A. R., “On the response of non-dissipative solids,” Proceedings of the Royal Society of London A, 463(2078), 357-367, 2007. 24. Rajagopal, K. R. and Srinivasa, A. R., “On the role of the Eshelby energy- momentum tensor in materials with multiple natural configurations,” Mathematics and Mechanics of Solids, 10(1), 3-24, 2005. 25. Rajagopal, K. R. and Srinivasa, A. R., “On the nature of constraints for continua undergoing dissipative processes,” Proceedings of the Royal Society of London . A, 461(2061), 2785-2795 2005. 26. *Pradeep, H., Rajagopal, K. R., and Srinivasa, A. R., “On the deformation of an elastoplastic body when placed between flat plates rotating about non- coincident axes,” International Journal of Plasticity, 21(12), 2255-2276, 2005. 27. Rajagopal, K. R. and Srinivasa, A. R., “On the bending of shape memory wires,” Mechanics of Advanced Materials and Structures, 12(5), 319-330, 2005. 28. Rajagopal, K. R. and Srinivasa, A. R., “A note on a correspondence principle in nonlinear viscoelastic materials,” International Journal of Fracture, 131(4), L47-L52, 2005. Arun R. Srinivasa, CV, Page 6 of 15, 3/8/2013 29. Rajagopal, K. R. and Srinivasa, A. R., “On the thermomechanics of materials that have multiple natural configurations – Part II: Twinning and solid to solid phase transformation,” Zeitschrift Fur Angewandte Mathematikund Physik (ZAMP), 55(6), 1074-1093, 2004. 30. Rajagopal K. R. and Srinivasa A. R., “On the thermomechanics of materials that have multiple natural configurations – Part I: Viscoelasticity and classical plasticity,” Zeitschrift Fur Angewandte Mathematikund Physik (ZAMP), 55(5), 861-893, 2004. 31. Phares, D. and Srinivasa, A. R., “Molecular dynamics with molecular temperature,” Journal of Physical Chemistry, A 108(29), 6100-6108, 2004. 32. Rajagopal, K. R. and Srinivasa, A. R., “Thermomechanical restrictions of continua,” Proceedings of the Royal Society of London A, 460(2042), 631-651, 2004. 33. Kratochvil, J., Malek J., Rajagopal, K. R., and Srinivasa A. R., “Modeling of the response of elastic plastic materials treated as a mixture of hard and soft regions,” Zeitschrift Fur Angewandte Mathematikund Physik (ZAMP), 55(3), 500-518, 2004. 34. *Baek S. and Srinivasa A. R., “Modeling of the pH-Sensitive behavior of an ionic gel in the presence of diffusion,” International Journal of Nonlinear Mechanics, 39(8), 1301-1318, 2004. 35. *Baek, S. and Srinivasa A. R., “On the diffusion of fluids through solids undergoing large deformations,” International Journal of Nonlinear Mechanics, 39 (2), 201-218, 2004. 36. *Baek, S., and Srinivasa, A.R., “Thermomechanical constraints and constitutive formulations in thermoelasticity,” Mathematical Problems in Engineering, 3, 153-171, 2003. 37. *Baek, S., and Srinivasa, A. R., “A variational approach based on the maximization of the rate of dissipation in gradient plasticity,” International Journal of Nonlinear Mechanics, 38(5): 659-662 , 2003. 38. O’Reilly, O. M. and Srinivasa, A. R., “On potential energies and constraints in the dynamics of rigid bodies and particles,” Mathematical Problems in Engineering, 8(3), 169-180, 2002. 39. *Zaki, K., Noah, S., Rajagopal, K. R., and Srinivasa, A. R., “Effect of nonlinear stiffness on the motion of a flexible pendulum,” Nonlinear Dynamics, 27(1), 1-18, 2002. 40. *Mollica, F., and Srinivasa, A. R., “A framework for the development of yield surfaces for metal forming applications,” Acta Mechanica, 154(2), 61-84, 2002. 41. Srinivasa, A. R., “Finite deformations of a class of elastic plastic materials and the Poynting effect,” International Journal of Plasticity, 17(9), 1189- 1214, 2001. 42. Beskok, A. and Srinivasa, A. R., “Simulation and analysis of a magnetoelastically driven micro-pump,” Journal of Fluid Engineering, ASME, 123(2), 435-438, 2001. 43. *Baek, S., Rajagopal, K. R., and Srinivasa, A. R., “Measurements related to the flow of granular material in a torsional rheometer,” J. Particulate Science and Technology, 19,175-186, 2001. Arun R. Srinivasa, CV, Page 7 of 15, 3/8/2013 44. Rajagopal, K. R. and Srinivasa, A. R., “Modeling anisotropic fluids within the framework of bodies with multiple natural configurations,” Journal of Non- Newtonian Fluid Mechanics, 99(2-3), 109-124, 2001. 45. *Mollica, F., Rajagopal, K. R., and Srinivasa, A. R., “Inelastic behavior of materials subject to loading reversal,” International Journal of Plasticity, 17(8), 1119-1146, 2001. 46. O’Reilly, O. M. and Srinivasa A. R., “On the nature of constraint forces in dynamics,” Proceedings of the Royal Society of London A, 457(2010), 1307- 1313, 2001. 47. *Lapczyk, I., Rajagopal, K. R., and Srinivasa, A. R., “Twinning of a cylinder during the Taylor anvil test-Numerical calculations using a constitutive theory based on dual reference configurations,” Computer Methods in Applied Mechanics and Engineering, 188, 527-541, 2000. 48. Srinivasa, A. R., “Flow characteristics of a multiconfigurational viscoelastic fluid with particular reference to the orthogonal rheometer,” Theoretical and Computational Fluid Dynamics, 13(5), 305-325, 2000. 49. Rajagopal, K. R. and Srinivasa, A. R., “A thermodynamical framework for rate-type fluids,” Journal of Non-Newtonian Fluid Mechanics, 88(3), 207-227, 2000. 50. Srinivasa, A. R., “A research note on certain loading directions in rate independent plasticity,” International Journal of Plasticity, 15(10), 1009- 1019, 1999. 51. Rajagopal, K. R. and Srinivasa A. R., “Thermomechanical modeling of shape memory alloys,” Zeitschrift fur Angewendt Mechanik und Physik (ZAMP), 50, 459-496, 1999. 52. Rajagopal, K. R. and Srinivasa, A. R., “Mechanics of inelastic behavior of materials, Part I,” International Journal of Plasticity, 14(10-11), 945-968, 1998. 53. Rajagopal, K. R. and Srinivasa, A. R., “Mechanics of inelastic behavior of materials, Part II,” International Journal of Plasticity, 14(10-11), 969-996, 1998. 54. Srinivasa, A. R., Rajagopal, K. R., and Armstrong, R. W., “A phenomenological model of twinning based on dual reference structures,” Acta Metallurgica, 46(4) 1235-1248, 1998. 55. *Lapcyzk, I., Rajagopal, K. R., and Srinivasa, A. R., “Deformation during impact-numerical calculations using a constitutive theory based on multiple reference configurations,” Computer Methods in Applied Mechanics and Engineering, 21, 20-27, 1998. 56. Rajagopal, K. R. and Srinivasa, A. R., “On the inelastic behavior of solids- Part II. Energetics of deformation twinning,” International Journal of Plasticity, 13(1-2), 1-35, 1997. 57. Srinivasa, A. R., “On the nature of response functions in rate-independent plasticity,” International Journal of Non-Linear Mechanics, 32(1), 103-119, 1997. 58. Rajagopal, K. R., Ruzicka, M., and Srinivasa, A. R., “On the Oberbeck- Boussinesq Approximation,” Mathematical Models and Methods in Applied Sciences, 6(8), 1157-1167, 1996. Arun R. Srinivasa, CV, Page 8 of 15, 3/8/2013 59. Rajagopal, K. R. and Srinivasa, A. R., “On the inelastic behavior of solids- Part 1: Twinning,” International Journal of Plasticity, 11(6), 653-678, 1996. 60. Naghdi P. M. and Srinivasa, A. R., “Some general results in the theory of crystallographic slip,” Zeitschrift fur Angewendt Mechanik und Physik (ZAMP), 45, 688-732, 1994. 61. Naghdi, P. M. and Srinivasa, A. R., “Characterization of dislocations and their influence on the inelastic behavior of single crystals,” International Journal of Engineering Science., 32(7), 1157-1182, 1994. 62. Naghdi, P. M. and Srinivasa, A. R., “A dynamical theory of structured solids, Part I,” Philosophical Transactions of the Royal Society of. London, A 345, 425-458, 1993. 63. Naghdi, P. M. and Srinivasa, A. R., “A dynamical theory of structured solids, Part II,” Philosophical Transactions of the Royal Society of. London, A 345, 459-476, 1993. 64. Naghdi, P. M. and Srinivasa, A. R., “On the dynamical theory of rigid- viscoplastic materials,” Quarterly Journal of Mechanics and Applied Mathematics, 45, 747-773, 1992. 65. Marshall, J. S., Naghdi, P. M., and Srinivasa, A. R., “A macroscopic theory of microcrack growth in brittle materials,” Philosophical Transactions of the Royal Society of London, A 335, 455-485, 1991. Papers in Conference Proceedings/Volumes: 1. Rajagopal, K. R. and Srinivasa A. R., “Adiabatic Processes and constraints in thermoelasticity,” ASME AMD-Vol 213, IMEC 1999. Conference Papers on Engineering Education (6 papers are coauthored with students): 1. Shryock K., Srinivasa, A. R. and Froyd, J. “Alignment of preparation via first-year phyics mechanics and calculus courses with expectations for a sophomore statics and dynamics course”, ASEE Conference, AC2011-1115 , (2011) 2. Shryock, K. Srinivasa, A. R., and Froyd, J. E., “Developing Instruments to assess first year calculus and physics mechanics skills needed for a sophomore statics and dynamics course”, Frontiers in Engineering Conference, (2011), Session FIJ (http://fie- conference.org/fie2011/papers/1058.pdf) 3. Skryock, K. Srinivasa, A. R. and Naryanan, K., "Preparing Engineering Students to Take a Calculus Course: An Engineering-Oriented Approach" , bibl. ASEE 118th Annual COnference, June 26-29., (2011). Poster # 63 4. Shryock K, Srinivasa, A. R. and Naryanan. K., "An Engineering Emphasis for Preparing Students for First year Engineering Curricula" , bibl. National Science Foundation, Grantees conference, Jan 2011, (2011). Arun R. Srinivasa, CV, Page 9 of 15, 3/8/2013 5. Froyd, J., Srinivasa, A. R., and Emmanuel, K. A., “Entropy, Efficiency and Thermodynamics for First year Engineering Students,” Proceedings, Frontiers in Education Conference, October 28-31, 2006, San Diego, CA (http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=4117074). 6. Srinivasa, A. R. and Bassichis, W. H., “Work in progress: The role of Physics in an engineering Education,” Proceedings, Frontiers in Education Conference, October 28-31, 2006. San Diego, CA (http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=4117155). 7. Froyd, J., Srinivasa, A., Maxwell, D., Conkey, A., and Shryock, K., “A Project- Based Approach to First-Year Engineering Curriculum Development,” Proceedings, Frontiers in Education Conference, October 19-22, 2005. Indianapolis, IN (http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1611955). 8. Howze, J., Froyd, J., Shryock, K. J., Srinivasa, A., and Caso, R., “Interdisciplinary Approach to First-Year Engineering Curricula,” Proceedings, ASEE Annual Conference and Exposition, June 12-15, 2005, Portland, Oregon. 9. Froyd, J., Conkey, A., Srinivasa, A., Maxwell, D., Shryock, K., Caso, R., Marotta, E., Howze, J. A., “Project-based Approach for First-year Engineering Courses,” Proceedings, ASEE Global Colloquium, 2005, September 26-30, 2005, Sydney, Australia. 10. Burger, C. A., Weese, J., and Srinivasa, A. R., “Industry coupled senior level design,” Proceedings of the ASEE annual Conference, University of New Orleans, College of Engineering, March 25-27,1998. Book Chapters: 1. Srinivasa A. R., “On the use of a work inequality in rate-independent plasticity”, in Recent Advances in Elasticity, Viscoelasticity and Inelasticity, series on Advances in Mathematics for Applied Sciences, K. R. Rajagopal (ed.), World Scientific, pp. 108-129, 1995. 2. Naghdi, P. M. and Srinivasa, A. R., “On the dynamical theory of rigid- viscoplastic materials”, in Nonlinear Elasticity and Theoretical Mechanics, in honor of A. E. Green, P. M. Naghdi, A. J. M. Spencer and A. E. England (eds), Oxford Science Publications, pp. 231-257, 1994. Arun R. Srinivasa, CV, Page 10 of 15, 3/8/2013 Technical Reports: 1. Srinivasa, A. R., and Yalamanchili R. C., “Modeling of the response of the abrasive flow medium (AFM) in shearing flows,” Final report to ExtrudeHone, Inc., (75 pages), June 1998. 2. Rajagopal, K. R., and Srinivasa, A. R., “A thermodynamic framework for rate type fluids,” Nonlinear Mechanics Laboratory Research report, TAMU-NML- MRR-1999-1. (30 pages), 1999. 3. Srinivasa, A. R., “Flow characteristics of a multiconfigurational fluid with particular reference to the orthogonal rheometer,” Nonlinear Mechanics Laboratory Research report, TAMU-NML-MRR-1999-2, (35 pages), 1999. 4. Kannan, R., and Srinivasa, A. R, “Measurement of rheological characteristics of frac sand mixed with various lubricants,” Halliburton Inc. (30 pages) 2001. 5. Kaushik, A., Phares D, and Srinivasa, A. R, “Measurement of adhesive forces in ultfine particles,” Seagate Inc. (30 pages) 2001. Conference Presentations: 1. “Rotational Gradient Dependent Elasticity and its application to beam and plate models”, International Conference on Mechanics of Nano, Micro and Macro Composite Structures, Politecnico di Torino, Italy, June 18-20 2012. 2. “Multifunctional smart material system (MSMS) using shape memory alloys and shape memory polymers” , SPIE Smart Structures/NDE conference, San Diego, California, March 11th - 15th, 2012, Ghosh, P. ,Rao, A. , Srinivasa, A.R. , 3. “A thermodynamically Based Discrete Preisach Model for SMA wires”, ASME-SMASIS Conference, Oxnard, California, Sept 21, 2009. 4. “Modeling of shape memory polymers,” International Workshop on Smart Devices, Indian Institute of Technology, Madras, January 2008. 5. “On the bending of shape memory wires,” Society of Engineering Science Conference, University of Nebraska, Lincoln, Nebraska, Oct 2004. 6. “On the behavior of ageing polymers,” Society of Engineering Science Conference, University of Nebraska, Lincoln Nebraska, Oct 2004. 7. “Modeling of the response of a polymer during fiber drawing,” Society of Engineering Science Conference, University of Michigan, Ann Arbor Michigan, Oct 2003. 8. “Multiconfigurational framework for viscoelastic fluids,” Society of Engineering Science Conference, Penn State University, College Park, Oct. 2002. 9. “On finite plasticity and the Poynting effect,” Society of Engineering Science Conference, University of South Carolina, Columbia, SC, Oct 2000.